Abstract: A film thickness measuring system measures thicknesses of first films of respective first substrates by spectroscopy, captures first image data of surfaces of second substrates each having a second film to acquire first color information of the surfaces of the second substrates, and calculates a correlation between a thickness of the second film and color information of the surface of the second substrate by using the measured thickness of the first films and the first color information. When estimating a thickness of a third film of a third substrate, the film thickness measuring system acquire second color information of the surface of the third substrate by using captured image data of the third substrate, and estimates a thickness of the third film in the second region, by using the calculated correlation and the second color information.

Abstract: Aspects of the present disclosure include methods for modulating an intensity profile of a laser beam. Methods according to certain embodiments include irradiating an acousto-optic device with a laser to generate an output laser beam having a plurality of angularly deflected laser beams, capturing an image of the output laser beam, determining an intensity profile of the output laser beam along a horizontal axis from the captured image and adjusting one or more parameters of a waveform inputted into the acousto-optic device in response to the determined intensity profile to generate an output laser beam having a modulated intensity profile. Systems having a laser, an acousto-optic device, an imaging sensor and a waveform generator as well as non-transitory computer readable storage medium with instructions for practicing the subject methods are also described.

Abstract: There is provided a profile measuring apparatus, including: an irradiation section configured to irradiate a measurement light to a measurement area of the object; an imaging section configured to obtain an image of the measurement area; a table configured to place the object thereon; a coordinate calculation section configured to calculate a position of the measurement area based on an image detected by a detection section; and a positioning mechanism configured to drive and control a relative position of the imaging section and the table. The positioning mechanism calculates a relative position of the imaging section to the table, based on an information with respect to an edge line direction of a convex portion or an extending direction of a concave portion in the measurement area of the object having a repetitive concave-convex shape, to move at least one of the table and the imaging section.

Abstract: A smoke detector for an air duct includes a photoelectric detection system and an air flow pathway in fluid communication with the air duct. The air flow pathway includes an inlet, an optic tube, and an outlet. The photoelectric detection system includes a circuit board having at least one light emitter and at least one light receiver mounted thereon. The optic tube passes through the circuit board and between the at least one light emitter and at least one light receiver.

Abstract: An object surface data detection method and system, an electronic apparatus, and a storage medium. The object surface data detection method, applied to a three-dimensional scanning system comprising detection auxiliary devices and a scanning device, includes: obtaining a unified coordinate system established for the detection auxiliary devices, wherein a number of the detection auxiliary devices is at least two; respectively obtaining first scan data of the scanning device scanning a surface of an object and tracking results of the detection auxiliary devices tracking the scanning device; and comprehensively calculating the tracking results, the first scan data, and the unified coordinate system to obtain an object surface detection result.

Abstract: A method of measuring thickness of a liquid layer includes applying a light beam to a liquid layer disposed on a surface of a member, detecting reflected light by a sensor, and analyzing the reflected light according to a spectral interference method with a curve fitting technique to determine the thickness of the liquid layer.

Abstract: A purpose of the present invention is to provide an optical measurement system or the like suitable for optical measurement of nucleic acids, proteins, etc. In a first aspect of the present invention, an optical measurement system that provides optical sample measurement comprises: an optical cell having a sample-holding hollow portion; and a light source unit that emits broadband light containing first and second light to the optical cell. The optical cell includes: a first light guide where light passes through a first transparent portion that transmits the first light more readily than the second light and the hollow portion without passing through a second transparent portion that transmits the second light more readily than the first light; and a second light guide that differs from the first light guide, in which light passes through the second transparent portion and the hollow portion without passing through the first transparent portion.

Abstract: A drifting and measurement tool is disclosed. The tool includes a first portion configured to mount on a first end of a tubular segment, and a second portion configured to mount on a second end of the tubular segment. The first portion has a rotatable component configured to rotate about a longitudinal axis of the tubular segment. The rotatable component includes a laser device configured to emit light toward the second portion and receive reflected light.

Abstract: A chromatic range sensor (CRS) system is provided that determines a workpiece thickness and includes an optical pen, an illumination source, a wavelength detector and a processing portion. The optical pen includes an optics portion providing axial chromatic dispersion, the illumination source is configured to generate multi-wavelength light and the wavelength detector includes a plurality of pixels distributed along a measurement axis. In operation, the optical pen inputs a spectral profile from the illumination source and outputs corresponding radiation to first and second workpiece surfaces of a workpiece (e.g., which may be transparent) and outputs reflected radiation to the wavelength detector which provides output spectral profile data. The processing portion processes the output spectral profile data to determine a thickness of the workpiece.

Abstract: Disclosed herein is a method for increasing signal-to-noise (SNR) in optical imaging of defects on unpatterned wafers. The method includes: (i) irradiating a region of an unpatterned wafer with a substantially polarized, incident light beam, and (ii) employing relay optics to collect and guide, radiation scattered off the region, onto a segmented polarizer comprising at least four polarizer segments characterized by respective dimensions and polarization directions. The respective dimensions and polarization direction of each of the at least four polarizer segments are such that an overall power of background noise radiation, generated in the scattering of the incident light beam from the region and passed through all of the at least four polarizer segments, is decreased as compared to utilizing a linear polarizer.

Abstract: A measurement probe of the present disclosure that scans a surface of a measurement object to measure a three-dimensional shape or the like of the surface of the measurement object includes a first movable portion having a stylus, a second movable portion that is connected to the first movable portion to be movable in a Z direction, a third movable portion that is connected to the second movable portion to be movable in the Z direction, a first position measurer that measures a first position of the first movable portion in the Z direction, a second position measurer that measures a second position of the second movable portion in the Z direction, and a third position measurer that measures a third position of the third movable portion in the Z direction. A first relative position is calculated based on the first position and the second position. A second relative position is calculated based on the first position and the third position.

Abstract: A particle monitoring device includes a camera sensor for imaging particles, a set of light sources, and an optical component. A first light source provides light of a first color component. A second light source provides light of a second color component. The optical component receives light of the first color component in a first direction from the first light source, and redirects the light of the first color component in an output direction towards the particles to illuminate the particles using light of the first color component. The optical component receives light of a second color component in a second direction, different from the first direction, from the second light source, and redirects the light of the second color component in the output direction towards the particles to illuminate the particles using light of the second color component.

Abstract: The impact of a stabilizing additive for treating oil-based fluids having destabilized solids, such as asphaltenes and polynuclear aromatics, may be quantitatively assessed, by determining the settling rate of flocculated destabilized solids in samples of untreated oil-based fluids and oil-based fluids treated with the stabilizing additive through the use of a turbidity meter or nephelometer while the field and quantifying the difference between the two settling rates to determine if a change in the amount of stabilizing additive applied to the oil-based fluid is necessary.

Abstract: A particle size distribution measuring device includes an actual spectrum obtaining unit obtaining an actual spectrum which is a light intensity spectrum; a non-target spectrum calculating unit that receives non-target particle size distribution data indicating a particle size distribution of a non-target particle group which is not a measurement target and which is accommodated in the cell and that calculates, on the basis of the non-target particle size distribution data, a non-target spectrum which is a light intensity spectrum to be obtained by irradiating the non-target particle group with light; a non-target spectrum removing unit that calculates a target spectrum which is a light intensity spectrum obtained by subtracting an influence of the non-target spectrum from the actual spectrum; and a target particle size distribution calculating unit that calculates the particle size distribution of the particle group which is the measurement target on the basis of the target spectrum.

Abstract: A coordinate measuring machine for determining dimensional and/or geometric properties of a measurement object has a measurement element, which defines a reference point and is movable along multiple movement axes relative to a measurement object receptacle. The movement axes include multiple linear axes and at least one axis of rotation. In order to control the measurement element relative to a measurement object, desired positions of the reference point and parameters defining limit values for permissible velocities and/or accelerations are provided. Multiple individual temporal sequences of respective individual axial positions for the plurality of movement axes are determined as a function of the desired positions of the reference point and the parameters. The individual temporal sequences each have individual time intervals between successive individual axial positions.

Abstract: The invention relates to a terahertz measuring apparatus (1) for run-time measurements of test objects (8), in particular, for layer thickness measurements and distance measurements of the test objects (8), whereby the terahertz measuring apparatus (1) comprises: a transmitter and receiver unit (2) for emitting a terahertz radiation (10) along an optical axis (A) and for receiving reflected terahertz radiation, a controller and evaluation unit (3) for driving the transmitter and receiver unit (2) and evaluating measuring signals (M) of the transmitter and receiver unit (2).

Abstract: Systems and methods for monitoring air particulate matter are provided herein that capture particles from the air for analysis. Particles are captured using electrostatic and/or mechanical means to deflect particles toward a substrate. Electrostatic precipitation causes charged carriers to deflect towards a charged substrate. Filtration-based means employ filters and/or fibers to capture particles from air flowing therethrough. A sensor such as a camera is used to read the captured particles. An illumination source directs light towards the substrate, causing the particles to scatter light, which the sensor can detect and derive information or imaging therefrom, which can also be used for further particle or pollution analyses. The substrate can be replenished using electrostatic techniques such as reverse electrostatic force, or mechanical means such as cleaning using a brush or replacing a tape substrate.

Abstract: The purpose of the present invention is to provide a particulate observation device using light scattering, which includes a means for determining the three-dimensional position of a particle, and can measure an accurate particle size or impart various properties of same. The present invention is characterized by including a position determination means which captures, with an optical microscope, an image of light scattered from particles in a dispersion medium to which laser light is emitted, and determines a three-dimensional position of each particle from the obtained two dimensional image, wherein the position determination obtains two-dimensional coordinates along the two-dimensional image from luminescent point positions of the particles, and determines the depth position along a coordinate axis vertical to the two-dimensional image from the diameters of diffraction fringes of the luminescent points.

Abstract: The invention provides an in vitro method for the determination of sun protection factor (SPF), in order to gain reproducibility and accuracy and replace the use of tests on living beings. Natural substrates of the human skin, like hyaluronic acid are tested in the form of solutions or in the form of a solid film in a modified spectrophotometer, at concentrations below 1% w/v. Once calibrated, the method is used to corroborate the protection factor offered by commercial sunscreens.

Abstract: In an endoscope system, a first actuator is configured to move a first optical member when a control signal is applied to the first actuator. A second actuator is configured to move a second optical member only when the control signal having a signal value greater than or equal to a predetermined value is applied to the second actuator. A signal source is configured to apply the control signal having the signal value greater than or equal to the predetermined value or the control signal having a signal value less than the predetermined value to the first actuator and is configured to apply the control signal having the signal value greater than or equal to the predetermined value to the second actuator.